In reply: The ENHANCE trial

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In reply: The ENHANCE trial

In Reply: Both Dr. Fee and Dr. Porat recommend cautious utilization of ezetimibe until outcome studies are completed. As I stated in my article, it is unfortunate that for ezetimibe, hard outcome trials are not yet available (the SEAS trial showed a cardiovascular benefit for the combination of simvastatin/ezetimibe, but it was not the primary end point). The main point of my article is that the weight of evidence for the benefits of LDL-C lowering is one of the most proven surrogate measures in clinical medicine. The biology, epidemiology, and clinical trials with multiple LDL-C-lowering therapies (bile-acid resin, niacin, fibrates, diet, ileal bypass surgery, and statins) convincingly demonstrate the validity of this surrogate measure for regulatory approval. In fact, every drug that has been approved for the treatment of hypercholesterolemia has been based on LDL-C reduction and not on outcome trials.

If this requirement was in place, it is doubtful that statins would have been approved. Lovastatin was approved by the US Food and Drug Administration in 1987; the Scandinavian Simvastatin Survival Study (4S) trial1 was completed in 1994. The 4S trial showed, for the first time, a reduction in total mortality with an LDL-C-lowering therapy. Millions of patients were placed on statins prior to 1994, and it is unlikely the 4S trial would have been funded unless there had been prior regulatory approval.

As a researcher, I truly believe hard outcome trials are essential, but as a clinician, I realize that most of our medical care is based on drugs approved utilizing surrogate measures. Hard outcome trials are not required for antihypertensives, oral hypoglycemics, or smoking cessation treatments prior to approval. Ezetimibe lowers LDL-C by a known mechanism and is well tolerated. The ENHANCE trial, with its well-recognized flaws, should not refute the benefits of LDL-C reduction. For patients not at goal on statin therapy, ezetimibe should remain a widely used option.

References
  1. The Scandinavian Simvastatin Survival Study (4S). Randomised trial of cholesterol lowering in 4444 patients with coronary heart disease. Lancet 1994; 344:1383–1389.
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In Reply: Both Dr. Fee and Dr. Porat recommend cautious utilization of ezetimibe until outcome studies are completed. As I stated in my article, it is unfortunate that for ezetimibe, hard outcome trials are not yet available (the SEAS trial showed a cardiovascular benefit for the combination of simvastatin/ezetimibe, but it was not the primary end point). The main point of my article is that the weight of evidence for the benefits of LDL-C lowering is one of the most proven surrogate measures in clinical medicine. The biology, epidemiology, and clinical trials with multiple LDL-C-lowering therapies (bile-acid resin, niacin, fibrates, diet, ileal bypass surgery, and statins) convincingly demonstrate the validity of this surrogate measure for regulatory approval. In fact, every drug that has been approved for the treatment of hypercholesterolemia has been based on LDL-C reduction and not on outcome trials.

If this requirement was in place, it is doubtful that statins would have been approved. Lovastatin was approved by the US Food and Drug Administration in 1987; the Scandinavian Simvastatin Survival Study (4S) trial1 was completed in 1994. The 4S trial showed, for the first time, a reduction in total mortality with an LDL-C-lowering therapy. Millions of patients were placed on statins prior to 1994, and it is unlikely the 4S trial would have been funded unless there had been prior regulatory approval.

As a researcher, I truly believe hard outcome trials are essential, but as a clinician, I realize that most of our medical care is based on drugs approved utilizing surrogate measures. Hard outcome trials are not required for antihypertensives, oral hypoglycemics, or smoking cessation treatments prior to approval. Ezetimibe lowers LDL-C by a known mechanism and is well tolerated. The ENHANCE trial, with its well-recognized flaws, should not refute the benefits of LDL-C reduction. For patients not at goal on statin therapy, ezetimibe should remain a widely used option.

In Reply: Both Dr. Fee and Dr. Porat recommend cautious utilization of ezetimibe until outcome studies are completed. As I stated in my article, it is unfortunate that for ezetimibe, hard outcome trials are not yet available (the SEAS trial showed a cardiovascular benefit for the combination of simvastatin/ezetimibe, but it was not the primary end point). The main point of my article is that the weight of evidence for the benefits of LDL-C lowering is one of the most proven surrogate measures in clinical medicine. The biology, epidemiology, and clinical trials with multiple LDL-C-lowering therapies (bile-acid resin, niacin, fibrates, diet, ileal bypass surgery, and statins) convincingly demonstrate the validity of this surrogate measure for regulatory approval. In fact, every drug that has been approved for the treatment of hypercholesterolemia has been based on LDL-C reduction and not on outcome trials.

If this requirement was in place, it is doubtful that statins would have been approved. Lovastatin was approved by the US Food and Drug Administration in 1987; the Scandinavian Simvastatin Survival Study (4S) trial1 was completed in 1994. The 4S trial showed, for the first time, a reduction in total mortality with an LDL-C-lowering therapy. Millions of patients were placed on statins prior to 1994, and it is unlikely the 4S trial would have been funded unless there had been prior regulatory approval.

As a researcher, I truly believe hard outcome trials are essential, but as a clinician, I realize that most of our medical care is based on drugs approved utilizing surrogate measures. Hard outcome trials are not required for antihypertensives, oral hypoglycemics, or smoking cessation treatments prior to approval. Ezetimibe lowers LDL-C by a known mechanism and is well tolerated. The ENHANCE trial, with its well-recognized flaws, should not refute the benefits of LDL-C reduction. For patients not at goal on statin therapy, ezetimibe should remain a widely used option.

References
  1. The Scandinavian Simvastatin Survival Study (4S). Randomised trial of cholesterol lowering in 4444 patients with coronary heart disease. Lancet 1994; 344:1383–1389.
References
  1. The Scandinavian Simvastatin Survival Study (4S). Randomised trial of cholesterol lowering in 4444 patients with coronary heart disease. Lancet 1994; 344:1383–1389.
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Is ezetimibe/simvastatin no better than simvastatin alone? Lessons learned and clinical implications

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Is ezetimibe/simvastatin no better than simvastatin alone? Lessons learned and clinical implications
Interpreting the ENHANCE trial

The Ezetimibe and Simvastatin in Hypercholesterolemia Enhances Atherosclerosis Regression (ENHANCE) trial1 was probably the most widely publicized clinical study of the past decade. How did a 720-patient imaging trial with a neutral result in patients with severe hypercholesterolemia rise to a level warranting massive media attention, a congressional investigation, and a recommendation to curtail the use of a drug widely used to reduce levels of low-density-lipoprotein cholesterol (LDL-C)?

See related editorial

The reaction to the ENHANCE trial reveals more about the political climate and the relationship between the pharmaceutical industry and the American public than it does about the effects of ezetimibe (available combined with simvastatin as Vytorin and by itself as Zetia) on the progression of atherosclerosis.

SOME SELF-DISCLOSURE

Before I discuss the clinical implications of the ENHANCE trial, I must describe both my financial conflicts and intellectual biases. I am a paid consultant, speaker, and researcher on behalf of Merck/Schering-Plough, the sponsor of the ENHANCE trial. I was a principal investigator in the first phase II trial of ezetimibe and have conducted more than 10 clinical trials of either ezetimibe or ezetimibe/simvastatin. I also have been a strong advocate for imaging trials to assist in the clinical development of novel therapeutic agents and to support regulatory approval.

Therefore, I believe that the thickness of the intima and media layers of the carotid arteries is a useful surrogate to evaluate the potential antiatherosclerotic effects of drugs (more on this topic below). Also, I believe that the LDL-C-lowering hypothesis has been proven: ie, that all drugs that lower LDL-C safely, without off-target adverse effects, should reduce cardiovascular events. I support the goal levels of LDL-C and non-high-density-lipoprotein cholesterol set by the National Cholesterol Education Program’s third Adult Treatment Panel (ATP III) guidelines,2,3 which specify LDL-C targets rather than the use of specific drugs. In spite of these conflicts and potential biases, I believe I have always served the best interests of patient care.

HISTORY OF THE ENHANCE TRIAL

The ENHANCE trial was designed in early 2000 by John J. Kastelein, MD, PhD, one of the most prominent clinical trialists in lipidology,4 and the protocol was finalized in April 2002. The trial was designed to evaluate the effects of two regimens: ezetimibe 10 mg plus simvastatin 80 mg vs simvastatin 80 mg (Zocor) in 720 patients with familial hypercholesterolemia and an LDL-C level of at least 210 mg/dL after stopping all lipid therapies. In fact, after the placebo run-in period, the mean total cholesterol value was 400 mg/dL, and the mean LDL-C value was about 318 mg/dL.

The end point defined as the mean of six measurements

The primary end point was the change in the thickness of the intima and media layers of the carotid arteries over a 2-year period, measured by ultrasonography. A composite measure was used: the mean of the thicknesses in the far walls of the right and left common carotid arteries, the right and left carotid bulbs, and the right and left internal carotid arteries. Secondary end points included the change in the mean maximal carotid artery intima-media thickness (ie, the thickest of the six baseline measurements), the proportion of participants who developed new carotid artery plaque (defined arbitrarily as an intima-media thickness > 1.3 mm), and changes in the mean of the intima-media thickness of the six carotid sites plus the common femoral arteries.

The last participant completed the trial in April 2006. Reading of the almost 30,000 scans was not started until the last participant was finished, so that all scans for each participant could be read in a blinded, randomized order by five separate readers. A significant proportion of the images that the protocol called for could not be obtained or analyzed, particularly in the internal carotid artery and the carotid bulb, which are often difficult to visualize. As a result, 17% of the internal carotid or carotid bulb measurements were discarded.

To change the end point post hoc, or not to change the end point?

The sponsor of the trial was concerned about the missing data points and convened a special advisory board to review the blinded data. This group suggested a solution: changing the primary end point from the six-site composite value to the mean value in just the common carotid arteries. They based this suggestion on the greater success rate in measuring the common carotids (97%) than in measuring all six sites (88%), as well as on recent trials that indicated that the common carotid artery measurement correlates better with clinical outcomes (because the internal carotid and the bulb measurements vary more). On November 26, 2007, Merck/Schering-Plough announced the primary end point would be changed to the mean change in the common carotid arteries.

However, during a separate meeting on November 30, 2007, some members of the Merck/Schering-Plough advisory board objected to the change. On December 11, 2007, the company announced that the original primary end point would not be changed.

 

 

Neutral results, negative publicity

On December 31, 2007, the ENHANCE study was unblinded, and on January 14, 2008, Merck/Schering-Plough issued a press release announcing the results. The press release stated that there were no statistically significant differences between the treatment groups in the primary end point or in any of the secondary end points, despite a 16.5% greater reduction in LDL-C (about 50 mg/dL) in the group receiving the ezetimibe/simvastatin combination. The composite intima-media thickness had increased by an average of 0.0111 mm in the combined-therapy group vs 0.0058 mm in the simvastatin-only group (P = .29) over the 24-month treatment period.5

The press release received unprecedented international media attention. One leading cardiologist commented to the media that ENHANCE showed “millions of patients may be taking a drug [ezetimibe] that does not benefit them, raising their risk of heart attacks and exposing them to potential side effects.”6 The perceived message that ezetimibe/simvastatin is harmful resulted in thousands of phone calls from concerned patients to their physicians throughout the United States. The American Heart Association (AHA) and the American College of Cardiology (ACC) issued a joint statement the next day saying that ezetimibe/simvastatin does not appear to be unsafe and that patients should not stop taking the drug on their own. In the following days, Merck/Schering-Plough placed advertisements in newspapers reaffirming the safety of ezetimibe and quoting the AHA/ACC statement.

But the full results of the study were not available at that point. In fact, Senator Charles Grassley (R-Iowa) had launched a congressional investigation into the delays in releasing the results of the ENHANCE trial in December 2007. A focus of the investigation was whether the sponsor was delaying the release either because the data reflected negatively on its product or because it was legitimately concerned about the quality of the measurements of the carotid intima-media thickness. After Merck/Schering-Plough placed the advertisements quoting the AHA/ACC statement, these organizations were criticized for touting the safety of ezetimibe while receiving educational grants and other funds from Merck/Schering-Plough. Senator Grassley sent a letter to the ACC in late March requesting information about the amount of funds the ACC had received.

Full results are published, and the ACC is misquoted

The ENHANCE study was selected for a special presentation at the ACC annual scientific session on March 30, 2008. The full ENHANCE results were presented by Dr. Kastelein, after which an expert panel led by Harlan M. Krumholz, MD, discussed the trial’s implications. The ENHANCE results were simultaneously published in the New England Journal of Medicine,1 accompanied by an editorial by B. Greg Brown, MD, and Allen J. Taylor, MD,7 and another editorial by the editors of that journal, Jeffrey M. Drazen, MD, and colleagues.8 The expert panel and the editorialists concluded that the ENHANCE trial data raised concerns about the cardiovascular benefits of ezetimibe; that statins should be used as initial therapy for hyperlipidemia and titrated to the goal LDL-C level or to the maximally tolerated dose; and that other drugs such as bile acid sequestrants, fibrates, and niacin should be used in combination with statins before considering ezetimibe.9

The next day, stories appeared in the media mistakenly stating that the ACC had recommended that ezetimibe/simvastatin be discontinued. This view was fueled by an article in the ACC’s Scientific Session News, penned by a contract writer and editor, with the headline, “ACC on Vytorin: Go Back to Statins” that said, “After waiting for 18 months for the results of the ENHANCE study, an ACC panel on Sunday encouraged physicians to use statins as a first line and prescribe Vytorin only as a last resort for patients unable to tolerate other cholesterol-lowering agents.”10

The ACC later clarified that this was the opinion of the panelists and not that of the ACC, and they reiterated statements from the AHA/ACC Secondary Prevention Guidelines11 recommending statins in maximally tolerated doses or titrated to a goal LDL-C level for first-line drug treatment of coronary artery disease, and recommending that patients speak with their physicians before discontinuing any therapy.

WHY WERE THE ENHANCE STUDY RESULTS NEUTRAL?

The ACC expert panel concluded that the most likely reason for the neutral ENHANCE results was that ezetimibe lowers LDL-C but does not confer a cardiovascular benefit. In the words of Dr. Krumholz (as quoted by Shannon Pettypiece and Michelle Fay Cortez on bloomberg.com), ezetimibe is “just an expensive placebo.”12

There are at least three potential explanations for the lack of benefit with ezetimibe in the ENHANCE trial. I list them below in order of lowest to highest probability, in my opinion:

Theory 1: Ezetimibe lowers LDL-C but is not antiatherogenic

Since almost all experts agree that lowering LDL-C confers cardiovascular benefits, if ezetimibe does not inhibit atherosclerosis it must have some “off-target” effect that negates its LDL-C-lowering benefit. Critics of ezetimibe point out that oral estrogen and torcetrapib also lower LDL-C but do not improve cardiovascular outcomes.13,14

The lack of benefit with these two other agents can be explained. Oral estrogen does not lower apolipoprotein B (an indication of the number of atherogenic particles), but rather it increases the levels of both triglycerides and C-reactive protein, and it is prothrombotic in some people.15 Torcetrapib increases aldosterone production and substantially raises blood pressure.16 Therefore, both drugs have true off-target effects that could explain their failure to reduce cardiovascular risk despite reductions in LDL-C. (Interestingly, though, oral estrogen has been shown to slow the progression of carotid intima-media thickness in newly postmenopausal women.17

Ezetimibe, however, lowers LDL-C by an ultimate mechanism similar to that of statins and bile acid sequestrants, ie, by up-regulating LDL receptors, although these drugs reach this mechanism via different pathways. Statins inhibit cholesterol synthesis, thereby lowering hepatic intracellular cholesterol and thus up-regulating LDL-receptors and enhancing LDL-C clearance from the plasma. Bile acid sequestrants interrupt bile acid reabsorption in the ileum, thereby decreasing intracellular hepatic cholesterol and up-regulating LDL receptors. Ezetimibe, like bile acid sequestrants, also decreases cholesterol return to the liver, lowering hepatic intracellular levels and thus up-regulating LDL receptors.18

Ezetimibe is unlikely to have an off-target effect because it is only fractionally absorbed systemically, and a recent animal study showed that it enhances macrophage efflux of cholesterol, thereby potentially increasing reverse cholesterol transport.19 Ezetimibe has also been shown to reduce atherosclerosis in animal models.20

In their editorial, Drs. Brown and Taylor7 noted that ezetimibe reduces the expression of adenosine triphosphate binding cassette A1 (ABCA1) in Caco-2 (an intestinal cell line), and this may be an example of an off-target effect. However, statins also reduce ABCA1 expression in macrophages.21 ABCA1 is sensitive to intracellular cholesterol, and when cholesterol levels are decreased, whether by statins or by ezetimibe, ABCA1 expression is down-regulated.22

 

 

Theory 2: Intima-media thickness does not reflect the true benefits of lowering LDL-C

The carotid intima-media thickness is a surrogate end point that predicts coronary events and the rate of progression of coronary atherosclerosis.23 In trials of lovastatin (Mevacor),24 pravastatin (Pravachol),25 and rosuvastatin (Crestor),26 the carotid intima-media was thinner at 24 months with the active drug than with placebo. In two relatively small trials—ARBITER 1 (n = 161),27 which was open-label, and ASAP (n = 325)28,29—aggressive lipid-lowering reduced the progression of intima-media thickness better than less-aggressive therapy. However, this measure has been used to evaluate the effects of differing degrees of LDL-C reduction between active treatments in fewer than 500 research participants.

Furthermore, what part or parts of the carotid system are we talking about? In recent trials led by Dr. Kastelein, the intima-media thickness of the common carotid arteries increased with pactimibe (an acyl-coenzyme A:cholesterol O-acyltransferase, or ACAT, inhibitor)30 and torcetrapib,31 but the six-site composite measure (which was the primary end point in these trials, as in ENHANCE) did not increase more than in the control groups. Pactimibe was also shown to increase atheroma volume as measured by intravascular ultrasonography in the ACTIVATE trial.32 Therefore, the thickness of the common carotid arteries has been shown to be a better predictor of harm from a therapy than the composite measurement.

The advantage of measuring the common carotid artery is that it is easier to visualize and measure, and therefore the measurements vary less. In the METEOR trial,26 the six-site measurement increased significantly less with rosuvastatin than with placebo, but the common carotid measurement alone was more strongly associated with a difference in progression. In the ENHANCE trial, the thickness of the common carotid arteries increased by 0.0024 mm with simvastatin alone vs 0.0019 mm with simvastatin/ezetimibe, a difference of 0.005 mm that was not statistically significant (P = .93).1

Although the six-site measurement appears to be good for predicting coronary events and evaluating therapies, the measurement in the common carotid arteries appears to be a more reliable surrogate end point for predicting both benefit and harm from antiatherogenic agents. However, trials of statins and other lipid-lowering therapies that assessed clinical events have shown that the reduction in risk associated with a given reduction in cholesterol is similar regardless of the mechanism by which cholesterol is lowered.33 Therefore, the LDL-C level is far superior as a marker of clinical benefit.

Theory 3: Previous statin treatment affected the ENHANCE results

By far the most likely explanation for the neutral findings in ENHANCE is that the patients were so well treated before entry that it was impossible to detect a difference between the two treatment groups in carotid intima-media thickness at the end of the study. Eighty percent of the patients had received statins previously, and at baseline the mean intima-media thickness of the common carotid arteries was only 0.68 mm.1 In contrast, most other trials required a thickness greater than 0.7 mm for entry.

The two main reasons for selecting a population with familial hypercholesterolemia were the assumptions that these participants would have a greater-than-average carotid intima-media thickness at baseline and that they would show an above-average progression rate, even on high-dose statin therapy.4 Both of these assumptions were incorrect: the baseline thickness was normal and the progression rate was negligible in both groups.

Figure 1. Top, in the ASAP extension study, the carotid intima-media thickness did not decrease further after 2 years of treatment with high-dose atorvastatin. This may explain the lack of regression in the RADIANCE (middle) and ENHANCE trials (bottom), in which most patients had already been on long-term statin therapy.
The ENHANCE trial design was based on the smaller ASAP trial,28,29 which found a significant reduction in progression of carotid intima-media thickness with atorvastatin (Lipitor) in high doses compared with simvastatin in lower doses. However, the ASAP patients had to have had a common carotid intima-media thickness greater than 0.7 mm to enter. A follow-up study after the initial treatment period29 showed minimal subsequent progression (0.005 mm/year) with atorvastatin 80 mg/day (Figure 1), suggesting that further lowering of LDL-C may have minimal impact on the progression of carotid intima-media thickness after a period of statin treatment. Since 80% of the ENHANCE patients were previously treated with statins, adding ezetimibe to high-dose simvastatin therapy may have been unlikely to affect the progression of carotid intima-media thickness.

Accordingly, the high prevalence of statin pretreatment and the near-normal carotid intima-media thickness at baseline may have prevented the 16.5% greater reduction in LDL-C due to ezetimibe from producing a difference in progression over 24 months of treatment. This conclusion is supported by the long-term follow-up results from ASAP, RADIANCE 1, and CAPTIVATE, all of which showed that in patients with familial hypercholesterolemia well treated with statins, progression of carotid intima-media thickness is negligible.30,31

Further supporting this view, in a previous trial by Dr. Kastelein’s group in patients with familial hypercholesterolemia,34 giving simvastatin 80 mg for 2 years decreased the intima-medial thickness by .081 mm (P < .001), compared with 0.0058 mm in ENHANCE (a 14-fold difference). In the previous trial, the baseline measurement was 1.07 mm (vs 0.68 mm in ENHANCE), and the extent of the change was significantly associated with the baseline measurement (r = .53, P < .001) but not with the change in LDL-C levels.

This is powerful evidence that, in two similar studies that used the same methodology and the same drug, the thinner arteries in the ENHANCE trial are by far the most likely explanation for the lack of change with the addition of ezetimibe to high-dose simvastatin. The METEOR trial enrolled only patients who had never received statins and whose carotid intima-media was thicker than 1.2 mm. In retrospect, a similar design would have been preferable for ENHANCE.35

 

 

LESSONS LEARNED AND CLINICAL IMPLICATIONS

For Merck/Schering-Plough, missed opportunities

Although Dr. Krumholz (the spokesman for the ACC panel discussion) and I disagree on the clinical implications of the ENHANCE trial, we do agree on an important point. Dr. Krumholz posed the question that if the LDL-C-lowering hypothesis was already proven for ezetimibe, why was the ENHANCE trial conducted? After 6 years on the market, the efficacy of ezetimibe on cardiovascular outcomes should already have been established. It should not take this long to determine the clinical outcome benefit for a drug.

Merck/Schering-Plough’s outcome program for ezetimibe was inadequately designed to demonstrate the clinical value of this novel compound. Rather than assuming the LDL-C-lowering hypothesis was already established, they conducted another “lower-is-better” trial with the carotid intima-media thickness as the end point, and they succeeded only in raising doubt about the benefits of ezetimibe rather than showing that dual therapy is at least equivalent to high-dose statin therapy.

A preferable approach would have been to compare the effects of a statin in low doses plus ezetimibe vs high-dose statin monotherapy on either surrogate or hard outcomes. If the low-dose statin/ezetimibe combination, which should lower the LDL-C level as much as high-dose statin monotherapy, could provide similar or better outcomes with fewer side effects, this trial would change our practice.

One had hoped that dual therapy, by reducing both intestinal cholesterol absorption and hepatic synthesis of cholesterol, would improve outcomes by modifying postprandial chylomicron composition or by reducing plant sterol absorption.36 Unfortunately, other outcome trials of ezetimibe/simvastatin will not provide an answer regarding the potential advantages of dual therapy. The SEAS study is comparing the number of clinical events in patients with aortic stenosis who receive ezetimibe/simvastatin or placebo; SHARP is being conducted in patients with chronic kidney disease. Although both groups of patients have high rates of coronary events, these trials will not address whether adding ezetimibe provides additional benefits. In fact, if the results of these trials turn out neutral, as in ENHANCE, then ezetimibe will be blamed for potentially offsetting the benefits of simvastatin, and if the trials show a benefit, the simvastatin component of ezetimibe/simvastatin will be given the credit.

The answer may come in 3 to 4 years with the results of IMPROVE-IT, a study of 18,000 patients with acute coronary syndrome treated with ezetimibe/simvastatin or simvastatin. The simvastatin monotherapy group will have a target LDL-C level of less than 80 mg/dL and the ezetimibe/simvastatin group will have an LDL-C target about 15% less. Although this trial is testing the lower-is-better hypothesis with ezetimibe, if the study does not show a benefit, it may not be because ezetimibe lacks clinical efficacy but rather because the LDL-C effect is curvilinear, and there is minimal further benefit of lowering the LDL-C level past 70 mg/dL. If the results of the IMPROVE-IT trial are negative, it may mean the end of ezetimibe as an LDL-C-lowering drug.

Merck/Schering-Plough has lost valuable time in not demonstrating the benefits of ezetimibe on clinical events. In contrast, consider rosuvastatin, an AstraZeneca product. Rosuvastatin was approved about the same time as ezetimibe/simvastatin, and 6 years later it has already received a label change for the reduction of progression of atherosclerosis, based on positive outcomes in the METEOR trial,35 the ASTEROID intravascular ultrasonography trial,37 and the CORONA trial (an important trial that examined hard clinical end points).38 More importantly, the JUPITER trial was recently stopped early owing to a reduction in cardiovascular deaths. Initially, rosuvastatin received an unfair media portrayal as an unsafe drug. Now, because of its proven benefits in outcome trials, it will receive more widespread consideration for clinical use.

For preventive cardiologists, a painful reminder to focus on LDL-C

For the preventive cardiologist or lipidologist, the ENHANCE trial has been a painful reminder that despite overwhelming evidence, the mantra of “the lower the LDL-C the better” is still not universally accepted. We acknowledge the great benefits of statins, but the lure of “pleiotropic effects” distracts many of us from the necessity of more aggressive LDL-C reduction.

The pleiotropic benefits of statins were first raised as a means of supporting increased clinical use of pravastatin vis-a-vis other, more efficacious statins. It was not until the PROVE-IT study that pravastatin’s pleiotropic effects were found not to translate into a benefit equivalent to that of the more efficacious statin, atorvastatin.39

The success of ezetimibe was its ability to safely and easily lower LDL-C in combination with statins to achieve treatment goals. For many patients, a lower-dose statin and ezetimibe together provide a well-tolerated and efficacious approach to treating hyperlipidemia. The fallout from the ENHANCE trial is that many patients who were well treated or who could be better treated with ezetimibe in combination with a statin will not receive the best tolerated regimen. In fact, preliminary prescription data after the release of the ENHANCE study support our worse fear, ie, that patients at high risk will receive less aggressive LDL-C reduction. Since the ENHANCE data were released, more than 300,000 patients have stopped taking either ezetimibe/simvastatin or ezetimibe, and nearly all have continued on generic simvastatin or on a dose of statin with less overall efficacy.

An example is Senator John McCain, who, according to his recently released medical records, has a Framingham 10-year risk of more than 20% and was on ezetimibe/simvastatin to treat an elevated cholesterol level. After release of the ENHANCE trial, he was switched to generic simvastatin, and his LDL-C increased from 82 mg/dL to 122 mg/dL. He most likely has an LDL-C goal of less than 100 mg/dL according to the ATP III guidelines, and he is therefore no longer at his target.

 

 

For physicians in the community, questions from concerned patients

For the physicians who have received hundreds of phone calls and e-mails from concerned patients, the ENHANCE trial results must have been both discouraging and confusing. At present, I think we should remember the following:

  • Ezetimibe’s mechanism of action is well understood
  • It is safe and well-tolerated
  • It still has a role as an add-on to statin therapy (or as monotherapy or combined with other agents in those who cannot tolerate statins) for patients who have not yet achieved their LDL-C target.

For the pharmaceutical industry, enormous challenges

The neutral ENHANCE trial results created an uncomfortable situation for the trial sponsor. A heavily marketed drug failed to achieve its expected result after the study results were delayed for a few months. The pharmaceutical industry ranks 14th out of 17 industries in public trust among the American public, and this study provided an opportunity for its critics to attack what is, in their opinion, an overly marketed drug.

Enormous challenges are on the horizon for the pharmaceutical industry, with a shrinking pipeline of potential new drugs, increasing regulatory hurdles, greater liability risk, political pressure for price controls, enhanced scrutiny of sales practices, and a growing media bias. As a cardiologist and clinical researcher whose father died at age 47 of a myocardial infarction, I am concerned that, unless change occurs, a vibrant pharmaceutical industry with the financial and intellectual capital to find and develop new, more effective treatments will cease to exist.

References
  1. Kastelein JJ, Akdim F, Stroes ES, et al ENHANCE Investigators. Simvastatin with or without ezetimibe in familial hypercholesterolemia. N Engl J Med 2008; 358:14311443.
  2. Third Report of the National Cholesterol Education Program (NCEP) Expert Panel on Detection, Evaluation, and Treatment of High Blood Cholesterol in Adults (Adult Treatment Panel III) final report. Circulation 2002; 106:31433421.
  3. Grundy SM, Cleeman JI, Bairey Merz N, et al for the Coordinating Committee of the National Cholesterol Education Program. Circulation 2004; 110:227239.
  4. Kastelein JJ, Sager PT, de Groot E, Veltri E. Comparison of ezetimibe plus simvastatin versus simvastatin monotherapy on atherosclerosis progression in familial hypercholesterolemia. Design and rationale of the Ezetimibe and Simvastatin in Hypercholesterolemia Enhances Atherosclerosis Regression (ENHANCE) trial. Am Heart J 2005; 49:234239.
  5. Merck/Schering-Plough Pharmaceutical Press Release, January 14, 2008.
  6. Berenson A. Study reveals doubt on drug for cholesterol. New York Times January 15, 2008.
  7. Brown BG, Taylor AJ. Does ENHANCE diminish confidence in lowering LDL or in ezetimibe? N Engl J Med 2008; 358:15041507.
  8. Drazen JM, Jarcho JA, Morrissey S, Curfman GD. Cholesterol lowering and ezetimibe. N Engl J Med 2008; 358:15071508.
  9. American College of Cardiology. ENHANCED analysis of ezetimibe. ACC News, April 2, 2008. www.acc.org/emails/myacc/accnews%5Fapril%5F02%5F08.htm. Accessed 6/2/2008.
  10. American College of Cardiology. ACC panel on Vytorin: Go back to statins. Scientific Session News 3/31/2008. http://www.acc08.acc.org/SSN/Documents/ACC%20Monday%20v2.pdf. Accessed 6/2/2008.
  11. Smith SC, Allen J, Blair SN, et al. AHA/ACC guidelines for secondary prevention for patients with coronary and other atherosclerotic vascular disease: 2006 update. Endorsed by the National Heart, Lung, and Blood Institute. J Am Coll Cardiol 2006; 47:21302139.
  12. Pettypiece S, Cortez MF. Merck, Schering plunge as doctors discourage Vytorin. www.bloomberg.com/apps/news?pid=20601103&refer=news&sid=aV_T9WirgAkI. Accessed 6/2/2008.
  13. Barter PJ, Caulfield M, Eriksson M, et al ILLUMINATE Investigators. . Effects of torcetrapib in patients at high risk for coronary events. N Engl J Med 2007; 357:21092122.
  14. Hulley S, Grady D, Bush T, et al. Randomized trial of estrogen plus progestin for secondary prevention of coronary heart disease in post-menopausal women. Heart and Estrogen/progestin Replacement Study (HERS) Research Group. JAMA 1998; 280:605613.
  15. Rader DJ. Illuminating HDL—is it still a viable therapeutic target? N Engl J Med 2007; 357:21802183.
  16. Davidson MH, Maki KC, Marx P, et al. Effects of continuous estrogen and estrogen-progestin replacement regimens on cardiovascular risk markers in postmenopausal women. Arch Intern Med 2000; 160:33153325.
  17. Hodis HN, Mack WJ, Lobo RA, et al Estrogen in the Prevention of Atherosclerosis Trial Research Group. . Estrogen in the prevention of atherosclerosis. A randomized, double-blind, placebo-controlled trial. Ann Intern Med 2001; 135:939953.
  18. Turley SD. Cholesterol metabolism and therapeutic targets: rationale for targeting multiple metabolic pathways. Clin Cardiol 2004; 27( suppl 3):III16III21.
  19. Sehayek E, Hazen SL. Cholesterol absorption from the intestine is a major determinant of reverse cholesterol transport from peripheral tissue macrophages. Arterioscler Thromb Vasc Biol 2008;27 (Epub ahead of print].
  20. Davis HR, Compton DS, Hoos L, Tetzloff G. Ezetimibe, a potent cholesterol absorption inhibitor, inhibits the development of atherosclerosis in ApoE knockout mice. Arterioscler Thromb Vasc Biol 2001; 21:20322038.
  21. Wong J, Quinn CM, Gelissen IC, Jessup W, Brown AJ. The effect of statins on ABCA1 and ABCG1 expression in human macrophages is influenced by cellular cholesterol levels and extent of differentiation. Atherosclerosis 2008; 196:180189.
  22. Wang N, Tall AR. Regulation and mechanisms of ATP-binding cassette transporter A1-mediated cellular cholesterol efflux. Arterioscler Thromb Vasc Biol 2003; 23:11781184.
  23. Bots ML. Carotid intima-media thickness as a surrogate marker for cardiovascular disease in intervention studies. Curr Med Res Opin 2006; 22:21812190.
  24. Byington RP, Evans GW, Espeland MA, et al. Effects of lovastatin and warfarin on early carotid atherosclerosis: sex-specific analyses. Asymptomatic Carotid Artery Progression Study (ACAPS) Research Group. Circulation 1999; 100:e14e17.
  25. Byington RP, Furberg CD, Crouse JR, Espeland MA, Bond MG. Pravastatin, Lipids, and Atherosclerosis in the Carotid Arteries (PLAC-II). Am J Cardiol 1995; 76:54C59C.
  26. Crouse JR, Raichlen JS, Riley WA, et al METEOR Study Group. . Effect of rosuvastatin on progression of carotid intima-media thickness in low-risk individuals with subclinical atherosclerosis: the METEOR trial. JAMA 2007; 297:13441353.
  27. Taylor AJ, Sullenberger LE, Lee HJ, Lee JK, Grace KA. Arterial Biology for the Investigation of the Treatment Effects of Reducing Cholesterol (ARBITER) 2: a double-blind, placebo-controlled study of extended-release niacin on atherosclerosis progression in secondary prevention patients treated with statins. Circulation 2004; 110:35123517.
  28. Smilde TJ, van Wissen S, Wollersheim H, Trip MD, Kastelein JJ, Stalenhoef AF. Effect of aggressive versus conventional lipid lowering on atherosclerosis progression in familial hypercholesterolaemia (ASAP): a prospective, randomised, double-blind trial. Lancet 2001; 357:577581.
  29. van Wissen S, Smilde TJ, Trip MD, Stalenhoef AFH, Kastelein JJP. Long-term safety and efficacy of high-dose atorvastatin treatment in patients with familial hypercholesterolemia. Am J Cardiol 2005; 95:264266.
  30. Meuwese MC, Franssen R, Stroes ES, Kastelein JJ. And then there were acyl coenzyme A:cholesterol acyl transferase inhibitors. Curr Opin Lipidol 2006; 17:426430.
  31. Kastelein JJ, van Leuven SI, Burgess L, et al RADIANCE 1 Investigators. . Effect of torcetrapib on carotid atherosclerosis in familial hypercholesterolemia. N Engl J Med 2007; 356:16201630.
  32. Nissen SE, Tuzcu EM, Brewer HB, et al ACAT Intravascular Atherosclerosis Treatment Evaluation (ACTIVATE) Investigators. Effect of ACAT inhibition on the progression of coronary atherosclerosis. N Engl J Med 2006; 354:12531263.
  33. Davidson MH. Clinical significance of statin pleiotropic effects: hypotheses versus evidence. Circulation 2005; 111:22802281.
  34. Nolting PR, de Groot E, Zwinderman AH, Buirma RJ, Trip MD, Kastelein JJ. Regression of carotid and femoral artery intima-media thickness in familial hypercholesterolemia. Arch Intern Med 2003; 163:18371841.
  35. Crouse JR, Grobbee DE, O’Leary DH, et al Measuring Effects on intima media Thickness: an Evaluation Of Rosuvastatin Study Group. . Measuring effects on intima media thickness: an evaluation of rosuvastatin in subclinical atherosclerosis—the rationale and methodology of the METEOR study. Cardiovasc Drugs Ther 2004; 18:231238.
  36. Toth PP, Davidson MH. Cholesterol absorption blockade with ezetimibe. Curr Drug Targets Cardiovasc Haematol Disord 2005; 5:455462.
  37. Nissen SE, Nicholls SJ, Sipahi I, et al ASTEROID Investigators. . Effect of very high-intensity statin therapy on regression of coronary atherosclerosis: the ASTEROID trial. JAMA 2006; 295:15561565.
  38. Kjekshus J, Apetrei E, Barrios V, et al CORONA Group. . Rosuvastatin in older patients with systolic heart failure. N Engl J Med 2007; 357:22482261.
  39. Cannon CP, Braunwald E, McCabe CH, et al Pravastatin or Atorvastatin Evaluation and Infection Therapy-Thrombolysis in Myocardial Infarction 22 Investigators. . Intensive versus moderate lipid lowering with statins after acute coronary syndromes. N Engl J Med 2004; 350:14951504.
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Dr. Davidson has disclosed that he has received consulting fees, honoraria, or grant support from Abbott Laboratories, Access Health, AstraZeneca Pharmaceuticals, Atherogenics, Daiichi-Sankyo, diaDexus, Kinemed, Merck & Co, Merck/Schering-Plough, Oscient Pharmaceuticals, Pfizer Laboratories, PreEmptive Meds, Roche Pharmaceuticals, sanofi-aventis, Synarc, and Takeda Pharmaceuticals for consulting, speaking, research, or serving on advisory boards. He also owns equity in or is on the board of directors of Angiogen, Professional Evaluation Inc, Medical Education Company, and Sonogene.

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Interpreting the ENHANCE trial
Interpreting the ENHANCE trial

The Ezetimibe and Simvastatin in Hypercholesterolemia Enhances Atherosclerosis Regression (ENHANCE) trial1 was probably the most widely publicized clinical study of the past decade. How did a 720-patient imaging trial with a neutral result in patients with severe hypercholesterolemia rise to a level warranting massive media attention, a congressional investigation, and a recommendation to curtail the use of a drug widely used to reduce levels of low-density-lipoprotein cholesterol (LDL-C)?

See related editorial

The reaction to the ENHANCE trial reveals more about the political climate and the relationship between the pharmaceutical industry and the American public than it does about the effects of ezetimibe (available combined with simvastatin as Vytorin and by itself as Zetia) on the progression of atherosclerosis.

SOME SELF-DISCLOSURE

Before I discuss the clinical implications of the ENHANCE trial, I must describe both my financial conflicts and intellectual biases. I am a paid consultant, speaker, and researcher on behalf of Merck/Schering-Plough, the sponsor of the ENHANCE trial. I was a principal investigator in the first phase II trial of ezetimibe and have conducted more than 10 clinical trials of either ezetimibe or ezetimibe/simvastatin. I also have been a strong advocate for imaging trials to assist in the clinical development of novel therapeutic agents and to support regulatory approval.

Therefore, I believe that the thickness of the intima and media layers of the carotid arteries is a useful surrogate to evaluate the potential antiatherosclerotic effects of drugs (more on this topic below). Also, I believe that the LDL-C-lowering hypothesis has been proven: ie, that all drugs that lower LDL-C safely, without off-target adverse effects, should reduce cardiovascular events. I support the goal levels of LDL-C and non-high-density-lipoprotein cholesterol set by the National Cholesterol Education Program’s third Adult Treatment Panel (ATP III) guidelines,2,3 which specify LDL-C targets rather than the use of specific drugs. In spite of these conflicts and potential biases, I believe I have always served the best interests of patient care.

HISTORY OF THE ENHANCE TRIAL

The ENHANCE trial was designed in early 2000 by John J. Kastelein, MD, PhD, one of the most prominent clinical trialists in lipidology,4 and the protocol was finalized in April 2002. The trial was designed to evaluate the effects of two regimens: ezetimibe 10 mg plus simvastatin 80 mg vs simvastatin 80 mg (Zocor) in 720 patients with familial hypercholesterolemia and an LDL-C level of at least 210 mg/dL after stopping all lipid therapies. In fact, after the placebo run-in period, the mean total cholesterol value was 400 mg/dL, and the mean LDL-C value was about 318 mg/dL.

The end point defined as the mean of six measurements

The primary end point was the change in the thickness of the intima and media layers of the carotid arteries over a 2-year period, measured by ultrasonography. A composite measure was used: the mean of the thicknesses in the far walls of the right and left common carotid arteries, the right and left carotid bulbs, and the right and left internal carotid arteries. Secondary end points included the change in the mean maximal carotid artery intima-media thickness (ie, the thickest of the six baseline measurements), the proportion of participants who developed new carotid artery plaque (defined arbitrarily as an intima-media thickness > 1.3 mm), and changes in the mean of the intima-media thickness of the six carotid sites plus the common femoral arteries.

The last participant completed the trial in April 2006. Reading of the almost 30,000 scans was not started until the last participant was finished, so that all scans for each participant could be read in a blinded, randomized order by five separate readers. A significant proportion of the images that the protocol called for could not be obtained or analyzed, particularly in the internal carotid artery and the carotid bulb, which are often difficult to visualize. As a result, 17% of the internal carotid or carotid bulb measurements were discarded.

To change the end point post hoc, or not to change the end point?

The sponsor of the trial was concerned about the missing data points and convened a special advisory board to review the blinded data. This group suggested a solution: changing the primary end point from the six-site composite value to the mean value in just the common carotid arteries. They based this suggestion on the greater success rate in measuring the common carotids (97%) than in measuring all six sites (88%), as well as on recent trials that indicated that the common carotid artery measurement correlates better with clinical outcomes (because the internal carotid and the bulb measurements vary more). On November 26, 2007, Merck/Schering-Plough announced the primary end point would be changed to the mean change in the common carotid arteries.

However, during a separate meeting on November 30, 2007, some members of the Merck/Schering-Plough advisory board objected to the change. On December 11, 2007, the company announced that the original primary end point would not be changed.

 

 

Neutral results, negative publicity

On December 31, 2007, the ENHANCE study was unblinded, and on January 14, 2008, Merck/Schering-Plough issued a press release announcing the results. The press release stated that there were no statistically significant differences between the treatment groups in the primary end point or in any of the secondary end points, despite a 16.5% greater reduction in LDL-C (about 50 mg/dL) in the group receiving the ezetimibe/simvastatin combination. The composite intima-media thickness had increased by an average of 0.0111 mm in the combined-therapy group vs 0.0058 mm in the simvastatin-only group (P = .29) over the 24-month treatment period.5

The press release received unprecedented international media attention. One leading cardiologist commented to the media that ENHANCE showed “millions of patients may be taking a drug [ezetimibe] that does not benefit them, raising their risk of heart attacks and exposing them to potential side effects.”6 The perceived message that ezetimibe/simvastatin is harmful resulted in thousands of phone calls from concerned patients to their physicians throughout the United States. The American Heart Association (AHA) and the American College of Cardiology (ACC) issued a joint statement the next day saying that ezetimibe/simvastatin does not appear to be unsafe and that patients should not stop taking the drug on their own. In the following days, Merck/Schering-Plough placed advertisements in newspapers reaffirming the safety of ezetimibe and quoting the AHA/ACC statement.

But the full results of the study were not available at that point. In fact, Senator Charles Grassley (R-Iowa) had launched a congressional investigation into the delays in releasing the results of the ENHANCE trial in December 2007. A focus of the investigation was whether the sponsor was delaying the release either because the data reflected negatively on its product or because it was legitimately concerned about the quality of the measurements of the carotid intima-media thickness. After Merck/Schering-Plough placed the advertisements quoting the AHA/ACC statement, these organizations were criticized for touting the safety of ezetimibe while receiving educational grants and other funds from Merck/Schering-Plough. Senator Grassley sent a letter to the ACC in late March requesting information about the amount of funds the ACC had received.

Full results are published, and the ACC is misquoted

The ENHANCE study was selected for a special presentation at the ACC annual scientific session on March 30, 2008. The full ENHANCE results were presented by Dr. Kastelein, after which an expert panel led by Harlan M. Krumholz, MD, discussed the trial’s implications. The ENHANCE results were simultaneously published in the New England Journal of Medicine,1 accompanied by an editorial by B. Greg Brown, MD, and Allen J. Taylor, MD,7 and another editorial by the editors of that journal, Jeffrey M. Drazen, MD, and colleagues.8 The expert panel and the editorialists concluded that the ENHANCE trial data raised concerns about the cardiovascular benefits of ezetimibe; that statins should be used as initial therapy for hyperlipidemia and titrated to the goal LDL-C level or to the maximally tolerated dose; and that other drugs such as bile acid sequestrants, fibrates, and niacin should be used in combination with statins before considering ezetimibe.9

The next day, stories appeared in the media mistakenly stating that the ACC had recommended that ezetimibe/simvastatin be discontinued. This view was fueled by an article in the ACC’s Scientific Session News, penned by a contract writer and editor, with the headline, “ACC on Vytorin: Go Back to Statins” that said, “After waiting for 18 months for the results of the ENHANCE study, an ACC panel on Sunday encouraged physicians to use statins as a first line and prescribe Vytorin only as a last resort for patients unable to tolerate other cholesterol-lowering agents.”10

The ACC later clarified that this was the opinion of the panelists and not that of the ACC, and they reiterated statements from the AHA/ACC Secondary Prevention Guidelines11 recommending statins in maximally tolerated doses or titrated to a goal LDL-C level for first-line drug treatment of coronary artery disease, and recommending that patients speak with their physicians before discontinuing any therapy.

WHY WERE THE ENHANCE STUDY RESULTS NEUTRAL?

The ACC expert panel concluded that the most likely reason for the neutral ENHANCE results was that ezetimibe lowers LDL-C but does not confer a cardiovascular benefit. In the words of Dr. Krumholz (as quoted by Shannon Pettypiece and Michelle Fay Cortez on bloomberg.com), ezetimibe is “just an expensive placebo.”12

There are at least three potential explanations for the lack of benefit with ezetimibe in the ENHANCE trial. I list them below in order of lowest to highest probability, in my opinion:

Theory 1: Ezetimibe lowers LDL-C but is not antiatherogenic

Since almost all experts agree that lowering LDL-C confers cardiovascular benefits, if ezetimibe does not inhibit atherosclerosis it must have some “off-target” effect that negates its LDL-C-lowering benefit. Critics of ezetimibe point out that oral estrogen and torcetrapib also lower LDL-C but do not improve cardiovascular outcomes.13,14

The lack of benefit with these two other agents can be explained. Oral estrogen does not lower apolipoprotein B (an indication of the number of atherogenic particles), but rather it increases the levels of both triglycerides and C-reactive protein, and it is prothrombotic in some people.15 Torcetrapib increases aldosterone production and substantially raises blood pressure.16 Therefore, both drugs have true off-target effects that could explain their failure to reduce cardiovascular risk despite reductions in LDL-C. (Interestingly, though, oral estrogen has been shown to slow the progression of carotid intima-media thickness in newly postmenopausal women.17

Ezetimibe, however, lowers LDL-C by an ultimate mechanism similar to that of statins and bile acid sequestrants, ie, by up-regulating LDL receptors, although these drugs reach this mechanism via different pathways. Statins inhibit cholesterol synthesis, thereby lowering hepatic intracellular cholesterol and thus up-regulating LDL-receptors and enhancing LDL-C clearance from the plasma. Bile acid sequestrants interrupt bile acid reabsorption in the ileum, thereby decreasing intracellular hepatic cholesterol and up-regulating LDL receptors. Ezetimibe, like bile acid sequestrants, also decreases cholesterol return to the liver, lowering hepatic intracellular levels and thus up-regulating LDL receptors.18

Ezetimibe is unlikely to have an off-target effect because it is only fractionally absorbed systemically, and a recent animal study showed that it enhances macrophage efflux of cholesterol, thereby potentially increasing reverse cholesterol transport.19 Ezetimibe has also been shown to reduce atherosclerosis in animal models.20

In their editorial, Drs. Brown and Taylor7 noted that ezetimibe reduces the expression of adenosine triphosphate binding cassette A1 (ABCA1) in Caco-2 (an intestinal cell line), and this may be an example of an off-target effect. However, statins also reduce ABCA1 expression in macrophages.21 ABCA1 is sensitive to intracellular cholesterol, and when cholesterol levels are decreased, whether by statins or by ezetimibe, ABCA1 expression is down-regulated.22

 

 

Theory 2: Intima-media thickness does not reflect the true benefits of lowering LDL-C

The carotid intima-media thickness is a surrogate end point that predicts coronary events and the rate of progression of coronary atherosclerosis.23 In trials of lovastatin (Mevacor),24 pravastatin (Pravachol),25 and rosuvastatin (Crestor),26 the carotid intima-media was thinner at 24 months with the active drug than with placebo. In two relatively small trials—ARBITER 1 (n = 161),27 which was open-label, and ASAP (n = 325)28,29—aggressive lipid-lowering reduced the progression of intima-media thickness better than less-aggressive therapy. However, this measure has been used to evaluate the effects of differing degrees of LDL-C reduction between active treatments in fewer than 500 research participants.

Furthermore, what part or parts of the carotid system are we talking about? In recent trials led by Dr. Kastelein, the intima-media thickness of the common carotid arteries increased with pactimibe (an acyl-coenzyme A:cholesterol O-acyltransferase, or ACAT, inhibitor)30 and torcetrapib,31 but the six-site composite measure (which was the primary end point in these trials, as in ENHANCE) did not increase more than in the control groups. Pactimibe was also shown to increase atheroma volume as measured by intravascular ultrasonography in the ACTIVATE trial.32 Therefore, the thickness of the common carotid arteries has been shown to be a better predictor of harm from a therapy than the composite measurement.

The advantage of measuring the common carotid artery is that it is easier to visualize and measure, and therefore the measurements vary less. In the METEOR trial,26 the six-site measurement increased significantly less with rosuvastatin than with placebo, but the common carotid measurement alone was more strongly associated with a difference in progression. In the ENHANCE trial, the thickness of the common carotid arteries increased by 0.0024 mm with simvastatin alone vs 0.0019 mm with simvastatin/ezetimibe, a difference of 0.005 mm that was not statistically significant (P = .93).1

Although the six-site measurement appears to be good for predicting coronary events and evaluating therapies, the measurement in the common carotid arteries appears to be a more reliable surrogate end point for predicting both benefit and harm from antiatherogenic agents. However, trials of statins and other lipid-lowering therapies that assessed clinical events have shown that the reduction in risk associated with a given reduction in cholesterol is similar regardless of the mechanism by which cholesterol is lowered.33 Therefore, the LDL-C level is far superior as a marker of clinical benefit.

Theory 3: Previous statin treatment affected the ENHANCE results

By far the most likely explanation for the neutral findings in ENHANCE is that the patients were so well treated before entry that it was impossible to detect a difference between the two treatment groups in carotid intima-media thickness at the end of the study. Eighty percent of the patients had received statins previously, and at baseline the mean intima-media thickness of the common carotid arteries was only 0.68 mm.1 In contrast, most other trials required a thickness greater than 0.7 mm for entry.

The two main reasons for selecting a population with familial hypercholesterolemia were the assumptions that these participants would have a greater-than-average carotid intima-media thickness at baseline and that they would show an above-average progression rate, even on high-dose statin therapy.4 Both of these assumptions were incorrect: the baseline thickness was normal and the progression rate was negligible in both groups.

Figure 1. Top, in the ASAP extension study, the carotid intima-media thickness did not decrease further after 2 years of treatment with high-dose atorvastatin. This may explain the lack of regression in the RADIANCE (middle) and ENHANCE trials (bottom), in which most patients had already been on long-term statin therapy.
The ENHANCE trial design was based on the smaller ASAP trial,28,29 which found a significant reduction in progression of carotid intima-media thickness with atorvastatin (Lipitor) in high doses compared with simvastatin in lower doses. However, the ASAP patients had to have had a common carotid intima-media thickness greater than 0.7 mm to enter. A follow-up study after the initial treatment period29 showed minimal subsequent progression (0.005 mm/year) with atorvastatin 80 mg/day (Figure 1), suggesting that further lowering of LDL-C may have minimal impact on the progression of carotid intima-media thickness after a period of statin treatment. Since 80% of the ENHANCE patients were previously treated with statins, adding ezetimibe to high-dose simvastatin therapy may have been unlikely to affect the progression of carotid intima-media thickness.

Accordingly, the high prevalence of statin pretreatment and the near-normal carotid intima-media thickness at baseline may have prevented the 16.5% greater reduction in LDL-C due to ezetimibe from producing a difference in progression over 24 months of treatment. This conclusion is supported by the long-term follow-up results from ASAP, RADIANCE 1, and CAPTIVATE, all of which showed that in patients with familial hypercholesterolemia well treated with statins, progression of carotid intima-media thickness is negligible.30,31

Further supporting this view, in a previous trial by Dr. Kastelein’s group in patients with familial hypercholesterolemia,34 giving simvastatin 80 mg for 2 years decreased the intima-medial thickness by .081 mm (P < .001), compared with 0.0058 mm in ENHANCE (a 14-fold difference). In the previous trial, the baseline measurement was 1.07 mm (vs 0.68 mm in ENHANCE), and the extent of the change was significantly associated with the baseline measurement (r = .53, P < .001) but not with the change in LDL-C levels.

This is powerful evidence that, in two similar studies that used the same methodology and the same drug, the thinner arteries in the ENHANCE trial are by far the most likely explanation for the lack of change with the addition of ezetimibe to high-dose simvastatin. The METEOR trial enrolled only patients who had never received statins and whose carotid intima-media was thicker than 1.2 mm. In retrospect, a similar design would have been preferable for ENHANCE.35

 

 

LESSONS LEARNED AND CLINICAL IMPLICATIONS

For Merck/Schering-Plough, missed opportunities

Although Dr. Krumholz (the spokesman for the ACC panel discussion) and I disagree on the clinical implications of the ENHANCE trial, we do agree on an important point. Dr. Krumholz posed the question that if the LDL-C-lowering hypothesis was already proven for ezetimibe, why was the ENHANCE trial conducted? After 6 years on the market, the efficacy of ezetimibe on cardiovascular outcomes should already have been established. It should not take this long to determine the clinical outcome benefit for a drug.

Merck/Schering-Plough’s outcome program for ezetimibe was inadequately designed to demonstrate the clinical value of this novel compound. Rather than assuming the LDL-C-lowering hypothesis was already established, they conducted another “lower-is-better” trial with the carotid intima-media thickness as the end point, and they succeeded only in raising doubt about the benefits of ezetimibe rather than showing that dual therapy is at least equivalent to high-dose statin therapy.

A preferable approach would have been to compare the effects of a statin in low doses plus ezetimibe vs high-dose statin monotherapy on either surrogate or hard outcomes. If the low-dose statin/ezetimibe combination, which should lower the LDL-C level as much as high-dose statin monotherapy, could provide similar or better outcomes with fewer side effects, this trial would change our practice.

One had hoped that dual therapy, by reducing both intestinal cholesterol absorption and hepatic synthesis of cholesterol, would improve outcomes by modifying postprandial chylomicron composition or by reducing plant sterol absorption.36 Unfortunately, other outcome trials of ezetimibe/simvastatin will not provide an answer regarding the potential advantages of dual therapy. The SEAS study is comparing the number of clinical events in patients with aortic stenosis who receive ezetimibe/simvastatin or placebo; SHARP is being conducted in patients with chronic kidney disease. Although both groups of patients have high rates of coronary events, these trials will not address whether adding ezetimibe provides additional benefits. In fact, if the results of these trials turn out neutral, as in ENHANCE, then ezetimibe will be blamed for potentially offsetting the benefits of simvastatin, and if the trials show a benefit, the simvastatin component of ezetimibe/simvastatin will be given the credit.

The answer may come in 3 to 4 years with the results of IMPROVE-IT, a study of 18,000 patients with acute coronary syndrome treated with ezetimibe/simvastatin or simvastatin. The simvastatin monotherapy group will have a target LDL-C level of less than 80 mg/dL and the ezetimibe/simvastatin group will have an LDL-C target about 15% less. Although this trial is testing the lower-is-better hypothesis with ezetimibe, if the study does not show a benefit, it may not be because ezetimibe lacks clinical efficacy but rather because the LDL-C effect is curvilinear, and there is minimal further benefit of lowering the LDL-C level past 70 mg/dL. If the results of the IMPROVE-IT trial are negative, it may mean the end of ezetimibe as an LDL-C-lowering drug.

Merck/Schering-Plough has lost valuable time in not demonstrating the benefits of ezetimibe on clinical events. In contrast, consider rosuvastatin, an AstraZeneca product. Rosuvastatin was approved about the same time as ezetimibe/simvastatin, and 6 years later it has already received a label change for the reduction of progression of atherosclerosis, based on positive outcomes in the METEOR trial,35 the ASTEROID intravascular ultrasonography trial,37 and the CORONA trial (an important trial that examined hard clinical end points).38 More importantly, the JUPITER trial was recently stopped early owing to a reduction in cardiovascular deaths. Initially, rosuvastatin received an unfair media portrayal as an unsafe drug. Now, because of its proven benefits in outcome trials, it will receive more widespread consideration for clinical use.

For preventive cardiologists, a painful reminder to focus on LDL-C

For the preventive cardiologist or lipidologist, the ENHANCE trial has been a painful reminder that despite overwhelming evidence, the mantra of “the lower the LDL-C the better” is still not universally accepted. We acknowledge the great benefits of statins, but the lure of “pleiotropic effects” distracts many of us from the necessity of more aggressive LDL-C reduction.

The pleiotropic benefits of statins were first raised as a means of supporting increased clinical use of pravastatin vis-a-vis other, more efficacious statins. It was not until the PROVE-IT study that pravastatin’s pleiotropic effects were found not to translate into a benefit equivalent to that of the more efficacious statin, atorvastatin.39

The success of ezetimibe was its ability to safely and easily lower LDL-C in combination with statins to achieve treatment goals. For many patients, a lower-dose statin and ezetimibe together provide a well-tolerated and efficacious approach to treating hyperlipidemia. The fallout from the ENHANCE trial is that many patients who were well treated or who could be better treated with ezetimibe in combination with a statin will not receive the best tolerated regimen. In fact, preliminary prescription data after the release of the ENHANCE study support our worse fear, ie, that patients at high risk will receive less aggressive LDL-C reduction. Since the ENHANCE data were released, more than 300,000 patients have stopped taking either ezetimibe/simvastatin or ezetimibe, and nearly all have continued on generic simvastatin or on a dose of statin with less overall efficacy.

An example is Senator John McCain, who, according to his recently released medical records, has a Framingham 10-year risk of more than 20% and was on ezetimibe/simvastatin to treat an elevated cholesterol level. After release of the ENHANCE trial, he was switched to generic simvastatin, and his LDL-C increased from 82 mg/dL to 122 mg/dL. He most likely has an LDL-C goal of less than 100 mg/dL according to the ATP III guidelines, and he is therefore no longer at his target.

 

 

For physicians in the community, questions from concerned patients

For the physicians who have received hundreds of phone calls and e-mails from concerned patients, the ENHANCE trial results must have been both discouraging and confusing. At present, I think we should remember the following:

  • Ezetimibe’s mechanism of action is well understood
  • It is safe and well-tolerated
  • It still has a role as an add-on to statin therapy (or as monotherapy or combined with other agents in those who cannot tolerate statins) for patients who have not yet achieved their LDL-C target.

For the pharmaceutical industry, enormous challenges

The neutral ENHANCE trial results created an uncomfortable situation for the trial sponsor. A heavily marketed drug failed to achieve its expected result after the study results were delayed for a few months. The pharmaceutical industry ranks 14th out of 17 industries in public trust among the American public, and this study provided an opportunity for its critics to attack what is, in their opinion, an overly marketed drug.

Enormous challenges are on the horizon for the pharmaceutical industry, with a shrinking pipeline of potential new drugs, increasing regulatory hurdles, greater liability risk, political pressure for price controls, enhanced scrutiny of sales practices, and a growing media bias. As a cardiologist and clinical researcher whose father died at age 47 of a myocardial infarction, I am concerned that, unless change occurs, a vibrant pharmaceutical industry with the financial and intellectual capital to find and develop new, more effective treatments will cease to exist.

The Ezetimibe and Simvastatin in Hypercholesterolemia Enhances Atherosclerosis Regression (ENHANCE) trial1 was probably the most widely publicized clinical study of the past decade. How did a 720-patient imaging trial with a neutral result in patients with severe hypercholesterolemia rise to a level warranting massive media attention, a congressional investigation, and a recommendation to curtail the use of a drug widely used to reduce levels of low-density-lipoprotein cholesterol (LDL-C)?

See related editorial

The reaction to the ENHANCE trial reveals more about the political climate and the relationship between the pharmaceutical industry and the American public than it does about the effects of ezetimibe (available combined with simvastatin as Vytorin and by itself as Zetia) on the progression of atherosclerosis.

SOME SELF-DISCLOSURE

Before I discuss the clinical implications of the ENHANCE trial, I must describe both my financial conflicts and intellectual biases. I am a paid consultant, speaker, and researcher on behalf of Merck/Schering-Plough, the sponsor of the ENHANCE trial. I was a principal investigator in the first phase II trial of ezetimibe and have conducted more than 10 clinical trials of either ezetimibe or ezetimibe/simvastatin. I also have been a strong advocate for imaging trials to assist in the clinical development of novel therapeutic agents and to support regulatory approval.

Therefore, I believe that the thickness of the intima and media layers of the carotid arteries is a useful surrogate to evaluate the potential antiatherosclerotic effects of drugs (more on this topic below). Also, I believe that the LDL-C-lowering hypothesis has been proven: ie, that all drugs that lower LDL-C safely, without off-target adverse effects, should reduce cardiovascular events. I support the goal levels of LDL-C and non-high-density-lipoprotein cholesterol set by the National Cholesterol Education Program’s third Adult Treatment Panel (ATP III) guidelines,2,3 which specify LDL-C targets rather than the use of specific drugs. In spite of these conflicts and potential biases, I believe I have always served the best interests of patient care.

HISTORY OF THE ENHANCE TRIAL

The ENHANCE trial was designed in early 2000 by John J. Kastelein, MD, PhD, one of the most prominent clinical trialists in lipidology,4 and the protocol was finalized in April 2002. The trial was designed to evaluate the effects of two regimens: ezetimibe 10 mg plus simvastatin 80 mg vs simvastatin 80 mg (Zocor) in 720 patients with familial hypercholesterolemia and an LDL-C level of at least 210 mg/dL after stopping all lipid therapies. In fact, after the placebo run-in period, the mean total cholesterol value was 400 mg/dL, and the mean LDL-C value was about 318 mg/dL.

The end point defined as the mean of six measurements

The primary end point was the change in the thickness of the intima and media layers of the carotid arteries over a 2-year period, measured by ultrasonography. A composite measure was used: the mean of the thicknesses in the far walls of the right and left common carotid arteries, the right and left carotid bulbs, and the right and left internal carotid arteries. Secondary end points included the change in the mean maximal carotid artery intima-media thickness (ie, the thickest of the six baseline measurements), the proportion of participants who developed new carotid artery plaque (defined arbitrarily as an intima-media thickness > 1.3 mm), and changes in the mean of the intima-media thickness of the six carotid sites plus the common femoral arteries.

The last participant completed the trial in April 2006. Reading of the almost 30,000 scans was not started until the last participant was finished, so that all scans for each participant could be read in a blinded, randomized order by five separate readers. A significant proportion of the images that the protocol called for could not be obtained or analyzed, particularly in the internal carotid artery and the carotid bulb, which are often difficult to visualize. As a result, 17% of the internal carotid or carotid bulb measurements were discarded.

To change the end point post hoc, or not to change the end point?

The sponsor of the trial was concerned about the missing data points and convened a special advisory board to review the blinded data. This group suggested a solution: changing the primary end point from the six-site composite value to the mean value in just the common carotid arteries. They based this suggestion on the greater success rate in measuring the common carotids (97%) than in measuring all six sites (88%), as well as on recent trials that indicated that the common carotid artery measurement correlates better with clinical outcomes (because the internal carotid and the bulb measurements vary more). On November 26, 2007, Merck/Schering-Plough announced the primary end point would be changed to the mean change in the common carotid arteries.

However, during a separate meeting on November 30, 2007, some members of the Merck/Schering-Plough advisory board objected to the change. On December 11, 2007, the company announced that the original primary end point would not be changed.

 

 

Neutral results, negative publicity

On December 31, 2007, the ENHANCE study was unblinded, and on January 14, 2008, Merck/Schering-Plough issued a press release announcing the results. The press release stated that there were no statistically significant differences between the treatment groups in the primary end point or in any of the secondary end points, despite a 16.5% greater reduction in LDL-C (about 50 mg/dL) in the group receiving the ezetimibe/simvastatin combination. The composite intima-media thickness had increased by an average of 0.0111 mm in the combined-therapy group vs 0.0058 mm in the simvastatin-only group (P = .29) over the 24-month treatment period.5

The press release received unprecedented international media attention. One leading cardiologist commented to the media that ENHANCE showed “millions of patients may be taking a drug [ezetimibe] that does not benefit them, raising their risk of heart attacks and exposing them to potential side effects.”6 The perceived message that ezetimibe/simvastatin is harmful resulted in thousands of phone calls from concerned patients to their physicians throughout the United States. The American Heart Association (AHA) and the American College of Cardiology (ACC) issued a joint statement the next day saying that ezetimibe/simvastatin does not appear to be unsafe and that patients should not stop taking the drug on their own. In the following days, Merck/Schering-Plough placed advertisements in newspapers reaffirming the safety of ezetimibe and quoting the AHA/ACC statement.

But the full results of the study were not available at that point. In fact, Senator Charles Grassley (R-Iowa) had launched a congressional investigation into the delays in releasing the results of the ENHANCE trial in December 2007. A focus of the investigation was whether the sponsor was delaying the release either because the data reflected negatively on its product or because it was legitimately concerned about the quality of the measurements of the carotid intima-media thickness. After Merck/Schering-Plough placed the advertisements quoting the AHA/ACC statement, these organizations were criticized for touting the safety of ezetimibe while receiving educational grants and other funds from Merck/Schering-Plough. Senator Grassley sent a letter to the ACC in late March requesting information about the amount of funds the ACC had received.

Full results are published, and the ACC is misquoted

The ENHANCE study was selected for a special presentation at the ACC annual scientific session on March 30, 2008. The full ENHANCE results were presented by Dr. Kastelein, after which an expert panel led by Harlan M. Krumholz, MD, discussed the trial’s implications. The ENHANCE results were simultaneously published in the New England Journal of Medicine,1 accompanied by an editorial by B. Greg Brown, MD, and Allen J. Taylor, MD,7 and another editorial by the editors of that journal, Jeffrey M. Drazen, MD, and colleagues.8 The expert panel and the editorialists concluded that the ENHANCE trial data raised concerns about the cardiovascular benefits of ezetimibe; that statins should be used as initial therapy for hyperlipidemia and titrated to the goal LDL-C level or to the maximally tolerated dose; and that other drugs such as bile acid sequestrants, fibrates, and niacin should be used in combination with statins before considering ezetimibe.9

The next day, stories appeared in the media mistakenly stating that the ACC had recommended that ezetimibe/simvastatin be discontinued. This view was fueled by an article in the ACC’s Scientific Session News, penned by a contract writer and editor, with the headline, “ACC on Vytorin: Go Back to Statins” that said, “After waiting for 18 months for the results of the ENHANCE study, an ACC panel on Sunday encouraged physicians to use statins as a first line and prescribe Vytorin only as a last resort for patients unable to tolerate other cholesterol-lowering agents.”10

The ACC later clarified that this was the opinion of the panelists and not that of the ACC, and they reiterated statements from the AHA/ACC Secondary Prevention Guidelines11 recommending statins in maximally tolerated doses or titrated to a goal LDL-C level for first-line drug treatment of coronary artery disease, and recommending that patients speak with their physicians before discontinuing any therapy.

WHY WERE THE ENHANCE STUDY RESULTS NEUTRAL?

The ACC expert panel concluded that the most likely reason for the neutral ENHANCE results was that ezetimibe lowers LDL-C but does not confer a cardiovascular benefit. In the words of Dr. Krumholz (as quoted by Shannon Pettypiece and Michelle Fay Cortez on bloomberg.com), ezetimibe is “just an expensive placebo.”12

There are at least three potential explanations for the lack of benefit with ezetimibe in the ENHANCE trial. I list them below in order of lowest to highest probability, in my opinion:

Theory 1: Ezetimibe lowers LDL-C but is not antiatherogenic

Since almost all experts agree that lowering LDL-C confers cardiovascular benefits, if ezetimibe does not inhibit atherosclerosis it must have some “off-target” effect that negates its LDL-C-lowering benefit. Critics of ezetimibe point out that oral estrogen and torcetrapib also lower LDL-C but do not improve cardiovascular outcomes.13,14

The lack of benefit with these two other agents can be explained. Oral estrogen does not lower apolipoprotein B (an indication of the number of atherogenic particles), but rather it increases the levels of both triglycerides and C-reactive protein, and it is prothrombotic in some people.15 Torcetrapib increases aldosterone production and substantially raises blood pressure.16 Therefore, both drugs have true off-target effects that could explain their failure to reduce cardiovascular risk despite reductions in LDL-C. (Interestingly, though, oral estrogen has been shown to slow the progression of carotid intima-media thickness in newly postmenopausal women.17

Ezetimibe, however, lowers LDL-C by an ultimate mechanism similar to that of statins and bile acid sequestrants, ie, by up-regulating LDL receptors, although these drugs reach this mechanism via different pathways. Statins inhibit cholesterol synthesis, thereby lowering hepatic intracellular cholesterol and thus up-regulating LDL-receptors and enhancing LDL-C clearance from the plasma. Bile acid sequestrants interrupt bile acid reabsorption in the ileum, thereby decreasing intracellular hepatic cholesterol and up-regulating LDL receptors. Ezetimibe, like bile acid sequestrants, also decreases cholesterol return to the liver, lowering hepatic intracellular levels and thus up-regulating LDL receptors.18

Ezetimibe is unlikely to have an off-target effect because it is only fractionally absorbed systemically, and a recent animal study showed that it enhances macrophage efflux of cholesterol, thereby potentially increasing reverse cholesterol transport.19 Ezetimibe has also been shown to reduce atherosclerosis in animal models.20

In their editorial, Drs. Brown and Taylor7 noted that ezetimibe reduces the expression of adenosine triphosphate binding cassette A1 (ABCA1) in Caco-2 (an intestinal cell line), and this may be an example of an off-target effect. However, statins also reduce ABCA1 expression in macrophages.21 ABCA1 is sensitive to intracellular cholesterol, and when cholesterol levels are decreased, whether by statins or by ezetimibe, ABCA1 expression is down-regulated.22

 

 

Theory 2: Intima-media thickness does not reflect the true benefits of lowering LDL-C

The carotid intima-media thickness is a surrogate end point that predicts coronary events and the rate of progression of coronary atherosclerosis.23 In trials of lovastatin (Mevacor),24 pravastatin (Pravachol),25 and rosuvastatin (Crestor),26 the carotid intima-media was thinner at 24 months with the active drug than with placebo. In two relatively small trials—ARBITER 1 (n = 161),27 which was open-label, and ASAP (n = 325)28,29—aggressive lipid-lowering reduced the progression of intima-media thickness better than less-aggressive therapy. However, this measure has been used to evaluate the effects of differing degrees of LDL-C reduction between active treatments in fewer than 500 research participants.

Furthermore, what part or parts of the carotid system are we talking about? In recent trials led by Dr. Kastelein, the intima-media thickness of the common carotid arteries increased with pactimibe (an acyl-coenzyme A:cholesterol O-acyltransferase, or ACAT, inhibitor)30 and torcetrapib,31 but the six-site composite measure (which was the primary end point in these trials, as in ENHANCE) did not increase more than in the control groups. Pactimibe was also shown to increase atheroma volume as measured by intravascular ultrasonography in the ACTIVATE trial.32 Therefore, the thickness of the common carotid arteries has been shown to be a better predictor of harm from a therapy than the composite measurement.

The advantage of measuring the common carotid artery is that it is easier to visualize and measure, and therefore the measurements vary less. In the METEOR trial,26 the six-site measurement increased significantly less with rosuvastatin than with placebo, but the common carotid measurement alone was more strongly associated with a difference in progression. In the ENHANCE trial, the thickness of the common carotid arteries increased by 0.0024 mm with simvastatin alone vs 0.0019 mm with simvastatin/ezetimibe, a difference of 0.005 mm that was not statistically significant (P = .93).1

Although the six-site measurement appears to be good for predicting coronary events and evaluating therapies, the measurement in the common carotid arteries appears to be a more reliable surrogate end point for predicting both benefit and harm from antiatherogenic agents. However, trials of statins and other lipid-lowering therapies that assessed clinical events have shown that the reduction in risk associated with a given reduction in cholesterol is similar regardless of the mechanism by which cholesterol is lowered.33 Therefore, the LDL-C level is far superior as a marker of clinical benefit.

Theory 3: Previous statin treatment affected the ENHANCE results

By far the most likely explanation for the neutral findings in ENHANCE is that the patients were so well treated before entry that it was impossible to detect a difference between the two treatment groups in carotid intima-media thickness at the end of the study. Eighty percent of the patients had received statins previously, and at baseline the mean intima-media thickness of the common carotid arteries was only 0.68 mm.1 In contrast, most other trials required a thickness greater than 0.7 mm for entry.

The two main reasons for selecting a population with familial hypercholesterolemia were the assumptions that these participants would have a greater-than-average carotid intima-media thickness at baseline and that they would show an above-average progression rate, even on high-dose statin therapy.4 Both of these assumptions were incorrect: the baseline thickness was normal and the progression rate was negligible in both groups.

Figure 1. Top, in the ASAP extension study, the carotid intima-media thickness did not decrease further after 2 years of treatment with high-dose atorvastatin. This may explain the lack of regression in the RADIANCE (middle) and ENHANCE trials (bottom), in which most patients had already been on long-term statin therapy.
The ENHANCE trial design was based on the smaller ASAP trial,28,29 which found a significant reduction in progression of carotid intima-media thickness with atorvastatin (Lipitor) in high doses compared with simvastatin in lower doses. However, the ASAP patients had to have had a common carotid intima-media thickness greater than 0.7 mm to enter. A follow-up study after the initial treatment period29 showed minimal subsequent progression (0.005 mm/year) with atorvastatin 80 mg/day (Figure 1), suggesting that further lowering of LDL-C may have minimal impact on the progression of carotid intima-media thickness after a period of statin treatment. Since 80% of the ENHANCE patients were previously treated with statins, adding ezetimibe to high-dose simvastatin therapy may have been unlikely to affect the progression of carotid intima-media thickness.

Accordingly, the high prevalence of statin pretreatment and the near-normal carotid intima-media thickness at baseline may have prevented the 16.5% greater reduction in LDL-C due to ezetimibe from producing a difference in progression over 24 months of treatment. This conclusion is supported by the long-term follow-up results from ASAP, RADIANCE 1, and CAPTIVATE, all of which showed that in patients with familial hypercholesterolemia well treated with statins, progression of carotid intima-media thickness is negligible.30,31

Further supporting this view, in a previous trial by Dr. Kastelein’s group in patients with familial hypercholesterolemia,34 giving simvastatin 80 mg for 2 years decreased the intima-medial thickness by .081 mm (P < .001), compared with 0.0058 mm in ENHANCE (a 14-fold difference). In the previous trial, the baseline measurement was 1.07 mm (vs 0.68 mm in ENHANCE), and the extent of the change was significantly associated with the baseline measurement (r = .53, P < .001) but not with the change in LDL-C levels.

This is powerful evidence that, in two similar studies that used the same methodology and the same drug, the thinner arteries in the ENHANCE trial are by far the most likely explanation for the lack of change with the addition of ezetimibe to high-dose simvastatin. The METEOR trial enrolled only patients who had never received statins and whose carotid intima-media was thicker than 1.2 mm. In retrospect, a similar design would have been preferable for ENHANCE.35

 

 

LESSONS LEARNED AND CLINICAL IMPLICATIONS

For Merck/Schering-Plough, missed opportunities

Although Dr. Krumholz (the spokesman for the ACC panel discussion) and I disagree on the clinical implications of the ENHANCE trial, we do agree on an important point. Dr. Krumholz posed the question that if the LDL-C-lowering hypothesis was already proven for ezetimibe, why was the ENHANCE trial conducted? After 6 years on the market, the efficacy of ezetimibe on cardiovascular outcomes should already have been established. It should not take this long to determine the clinical outcome benefit for a drug.

Merck/Schering-Plough’s outcome program for ezetimibe was inadequately designed to demonstrate the clinical value of this novel compound. Rather than assuming the LDL-C-lowering hypothesis was already established, they conducted another “lower-is-better” trial with the carotid intima-media thickness as the end point, and they succeeded only in raising doubt about the benefits of ezetimibe rather than showing that dual therapy is at least equivalent to high-dose statin therapy.

A preferable approach would have been to compare the effects of a statin in low doses plus ezetimibe vs high-dose statin monotherapy on either surrogate or hard outcomes. If the low-dose statin/ezetimibe combination, which should lower the LDL-C level as much as high-dose statin monotherapy, could provide similar or better outcomes with fewer side effects, this trial would change our practice.

One had hoped that dual therapy, by reducing both intestinal cholesterol absorption and hepatic synthesis of cholesterol, would improve outcomes by modifying postprandial chylomicron composition or by reducing plant sterol absorption.36 Unfortunately, other outcome trials of ezetimibe/simvastatin will not provide an answer regarding the potential advantages of dual therapy. The SEAS study is comparing the number of clinical events in patients with aortic stenosis who receive ezetimibe/simvastatin or placebo; SHARP is being conducted in patients with chronic kidney disease. Although both groups of patients have high rates of coronary events, these trials will not address whether adding ezetimibe provides additional benefits. In fact, if the results of these trials turn out neutral, as in ENHANCE, then ezetimibe will be blamed for potentially offsetting the benefits of simvastatin, and if the trials show a benefit, the simvastatin component of ezetimibe/simvastatin will be given the credit.

The answer may come in 3 to 4 years with the results of IMPROVE-IT, a study of 18,000 patients with acute coronary syndrome treated with ezetimibe/simvastatin or simvastatin. The simvastatin monotherapy group will have a target LDL-C level of less than 80 mg/dL and the ezetimibe/simvastatin group will have an LDL-C target about 15% less. Although this trial is testing the lower-is-better hypothesis with ezetimibe, if the study does not show a benefit, it may not be because ezetimibe lacks clinical efficacy but rather because the LDL-C effect is curvilinear, and there is minimal further benefit of lowering the LDL-C level past 70 mg/dL. If the results of the IMPROVE-IT trial are negative, it may mean the end of ezetimibe as an LDL-C-lowering drug.

Merck/Schering-Plough has lost valuable time in not demonstrating the benefits of ezetimibe on clinical events. In contrast, consider rosuvastatin, an AstraZeneca product. Rosuvastatin was approved about the same time as ezetimibe/simvastatin, and 6 years later it has already received a label change for the reduction of progression of atherosclerosis, based on positive outcomes in the METEOR trial,35 the ASTEROID intravascular ultrasonography trial,37 and the CORONA trial (an important trial that examined hard clinical end points).38 More importantly, the JUPITER trial was recently stopped early owing to a reduction in cardiovascular deaths. Initially, rosuvastatin received an unfair media portrayal as an unsafe drug. Now, because of its proven benefits in outcome trials, it will receive more widespread consideration for clinical use.

For preventive cardiologists, a painful reminder to focus on LDL-C

For the preventive cardiologist or lipidologist, the ENHANCE trial has been a painful reminder that despite overwhelming evidence, the mantra of “the lower the LDL-C the better” is still not universally accepted. We acknowledge the great benefits of statins, but the lure of “pleiotropic effects” distracts many of us from the necessity of more aggressive LDL-C reduction.

The pleiotropic benefits of statins were first raised as a means of supporting increased clinical use of pravastatin vis-a-vis other, more efficacious statins. It was not until the PROVE-IT study that pravastatin’s pleiotropic effects were found not to translate into a benefit equivalent to that of the more efficacious statin, atorvastatin.39

The success of ezetimibe was its ability to safely and easily lower LDL-C in combination with statins to achieve treatment goals. For many patients, a lower-dose statin and ezetimibe together provide a well-tolerated and efficacious approach to treating hyperlipidemia. The fallout from the ENHANCE trial is that many patients who were well treated or who could be better treated with ezetimibe in combination with a statin will not receive the best tolerated regimen. In fact, preliminary prescription data after the release of the ENHANCE study support our worse fear, ie, that patients at high risk will receive less aggressive LDL-C reduction. Since the ENHANCE data were released, more than 300,000 patients have stopped taking either ezetimibe/simvastatin or ezetimibe, and nearly all have continued on generic simvastatin or on a dose of statin with less overall efficacy.

An example is Senator John McCain, who, according to his recently released medical records, has a Framingham 10-year risk of more than 20% and was on ezetimibe/simvastatin to treat an elevated cholesterol level. After release of the ENHANCE trial, he was switched to generic simvastatin, and his LDL-C increased from 82 mg/dL to 122 mg/dL. He most likely has an LDL-C goal of less than 100 mg/dL according to the ATP III guidelines, and he is therefore no longer at his target.

 

 

For physicians in the community, questions from concerned patients

For the physicians who have received hundreds of phone calls and e-mails from concerned patients, the ENHANCE trial results must have been both discouraging and confusing. At present, I think we should remember the following:

  • Ezetimibe’s mechanism of action is well understood
  • It is safe and well-tolerated
  • It still has a role as an add-on to statin therapy (or as monotherapy or combined with other agents in those who cannot tolerate statins) for patients who have not yet achieved their LDL-C target.

For the pharmaceutical industry, enormous challenges

The neutral ENHANCE trial results created an uncomfortable situation for the trial sponsor. A heavily marketed drug failed to achieve its expected result after the study results were delayed for a few months. The pharmaceutical industry ranks 14th out of 17 industries in public trust among the American public, and this study provided an opportunity for its critics to attack what is, in their opinion, an overly marketed drug.

Enormous challenges are on the horizon for the pharmaceutical industry, with a shrinking pipeline of potential new drugs, increasing regulatory hurdles, greater liability risk, political pressure for price controls, enhanced scrutiny of sales practices, and a growing media bias. As a cardiologist and clinical researcher whose father died at age 47 of a myocardial infarction, I am concerned that, unless change occurs, a vibrant pharmaceutical industry with the financial and intellectual capital to find and develop new, more effective treatments will cease to exist.

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  24. Byington RP, Evans GW, Espeland MA, et al. Effects of lovastatin and warfarin on early carotid atherosclerosis: sex-specific analyses. Asymptomatic Carotid Artery Progression Study (ACAPS) Research Group. Circulation 1999; 100:e14e17.
  25. Byington RP, Furberg CD, Crouse JR, Espeland MA, Bond MG. Pravastatin, Lipids, and Atherosclerosis in the Carotid Arteries (PLAC-II). Am J Cardiol 1995; 76:54C59C.
  26. Crouse JR, Raichlen JS, Riley WA, et al METEOR Study Group. . Effect of rosuvastatin on progression of carotid intima-media thickness in low-risk individuals with subclinical atherosclerosis: the METEOR trial. JAMA 2007; 297:13441353.
  27. Taylor AJ, Sullenberger LE, Lee HJ, Lee JK, Grace KA. Arterial Biology for the Investigation of the Treatment Effects of Reducing Cholesterol (ARBITER) 2: a double-blind, placebo-controlled study of extended-release niacin on atherosclerosis progression in secondary prevention patients treated with statins. Circulation 2004; 110:35123517.
  28. Smilde TJ, van Wissen S, Wollersheim H, Trip MD, Kastelein JJ, Stalenhoef AF. Effect of aggressive versus conventional lipid lowering on atherosclerosis progression in familial hypercholesterolaemia (ASAP): a prospective, randomised, double-blind trial. Lancet 2001; 357:577581.
  29. van Wissen S, Smilde TJ, Trip MD, Stalenhoef AFH, Kastelein JJP. Long-term safety and efficacy of high-dose atorvastatin treatment in patients with familial hypercholesterolemia. Am J Cardiol 2005; 95:264266.
  30. Meuwese MC, Franssen R, Stroes ES, Kastelein JJ. And then there were acyl coenzyme A:cholesterol acyl transferase inhibitors. Curr Opin Lipidol 2006; 17:426430.
  31. Kastelein JJ, van Leuven SI, Burgess L, et al RADIANCE 1 Investigators. . Effect of torcetrapib on carotid atherosclerosis in familial hypercholesterolemia. N Engl J Med 2007; 356:16201630.
  32. Nissen SE, Tuzcu EM, Brewer HB, et al ACAT Intravascular Atherosclerosis Treatment Evaluation (ACTIVATE) Investigators. Effect of ACAT inhibition on the progression of coronary atherosclerosis. N Engl J Med 2006; 354:12531263.
  33. Davidson MH. Clinical significance of statin pleiotropic effects: hypotheses versus evidence. Circulation 2005; 111:22802281.
  34. Nolting PR, de Groot E, Zwinderman AH, Buirma RJ, Trip MD, Kastelein JJ. Regression of carotid and femoral artery intima-media thickness in familial hypercholesterolemia. Arch Intern Med 2003; 163:18371841.
  35. Crouse JR, Grobbee DE, O’Leary DH, et al Measuring Effects on intima media Thickness: an Evaluation Of Rosuvastatin Study Group. . Measuring effects on intima media thickness: an evaluation of rosuvastatin in subclinical atherosclerosis—the rationale and methodology of the METEOR study. Cardiovasc Drugs Ther 2004; 18:231238.
  36. Toth PP, Davidson MH. Cholesterol absorption blockade with ezetimibe. Curr Drug Targets Cardiovasc Haematol Disord 2005; 5:455462.
  37. Nissen SE, Nicholls SJ, Sipahi I, et al ASTEROID Investigators. . Effect of very high-intensity statin therapy on regression of coronary atherosclerosis: the ASTEROID trial. JAMA 2006; 295:15561565.
  38. Kjekshus J, Apetrei E, Barrios V, et al CORONA Group. . Rosuvastatin in older patients with systolic heart failure. N Engl J Med 2007; 357:22482261.
  39. Cannon CP, Braunwald E, McCabe CH, et al Pravastatin or Atorvastatin Evaluation and Infection Therapy-Thrombolysis in Myocardial Infarction 22 Investigators. . Intensive versus moderate lipid lowering with statins after acute coronary syndromes. N Engl J Med 2004; 350:14951504.
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  2. Third Report of the National Cholesterol Education Program (NCEP) Expert Panel on Detection, Evaluation, and Treatment of High Blood Cholesterol in Adults (Adult Treatment Panel III) final report. Circulation 2002; 106:31433421.
  3. Grundy SM, Cleeman JI, Bairey Merz N, et al for the Coordinating Committee of the National Cholesterol Education Program. Circulation 2004; 110:227239.
  4. Kastelein JJ, Sager PT, de Groot E, Veltri E. Comparison of ezetimibe plus simvastatin versus simvastatin monotherapy on atherosclerosis progression in familial hypercholesterolemia. Design and rationale of the Ezetimibe and Simvastatin in Hypercholesterolemia Enhances Atherosclerosis Regression (ENHANCE) trial. Am Heart J 2005; 49:234239.
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  9. American College of Cardiology. ENHANCED analysis of ezetimibe. ACC News, April 2, 2008. www.acc.org/emails/myacc/accnews%5Fapril%5F02%5F08.htm. Accessed 6/2/2008.
  10. American College of Cardiology. ACC panel on Vytorin: Go back to statins. Scientific Session News 3/31/2008. http://www.acc08.acc.org/SSN/Documents/ACC%20Monday%20v2.pdf. Accessed 6/2/2008.
  11. Smith SC, Allen J, Blair SN, et al. AHA/ACC guidelines for secondary prevention for patients with coronary and other atherosclerotic vascular disease: 2006 update. Endorsed by the National Heart, Lung, and Blood Institute. J Am Coll Cardiol 2006; 47:21302139.
  12. Pettypiece S, Cortez MF. Merck, Schering plunge as doctors discourage Vytorin. www.bloomberg.com/apps/news?pid=20601103&refer=news&sid=aV_T9WirgAkI. Accessed 6/2/2008.
  13. Barter PJ, Caulfield M, Eriksson M, et al ILLUMINATE Investigators. . Effects of torcetrapib in patients at high risk for coronary events. N Engl J Med 2007; 357:21092122.
  14. Hulley S, Grady D, Bush T, et al. Randomized trial of estrogen plus progestin for secondary prevention of coronary heart disease in post-menopausal women. Heart and Estrogen/progestin Replacement Study (HERS) Research Group. JAMA 1998; 280:605613.
  15. Rader DJ. Illuminating HDL—is it still a viable therapeutic target? N Engl J Med 2007; 357:21802183.
  16. Davidson MH, Maki KC, Marx P, et al. Effects of continuous estrogen and estrogen-progestin replacement regimens on cardiovascular risk markers in postmenopausal women. Arch Intern Med 2000; 160:33153325.
  17. Hodis HN, Mack WJ, Lobo RA, et al Estrogen in the Prevention of Atherosclerosis Trial Research Group. . Estrogen in the prevention of atherosclerosis. A randomized, double-blind, placebo-controlled trial. Ann Intern Med 2001; 135:939953.
  18. Turley SD. Cholesterol metabolism and therapeutic targets: rationale for targeting multiple metabolic pathways. Clin Cardiol 2004; 27( suppl 3):III16III21.
  19. Sehayek E, Hazen SL. Cholesterol absorption from the intestine is a major determinant of reverse cholesterol transport from peripheral tissue macrophages. Arterioscler Thromb Vasc Biol 2008;27 (Epub ahead of print].
  20. Davis HR, Compton DS, Hoos L, Tetzloff G. Ezetimibe, a potent cholesterol absorption inhibitor, inhibits the development of atherosclerosis in ApoE knockout mice. Arterioscler Thromb Vasc Biol 2001; 21:20322038.
  21. Wong J, Quinn CM, Gelissen IC, Jessup W, Brown AJ. The effect of statins on ABCA1 and ABCG1 expression in human macrophages is influenced by cellular cholesterol levels and extent of differentiation. Atherosclerosis 2008; 196:180189.
  22. Wang N, Tall AR. Regulation and mechanisms of ATP-binding cassette transporter A1-mediated cellular cholesterol efflux. Arterioscler Thromb Vasc Biol 2003; 23:11781184.
  23. Bots ML. Carotid intima-media thickness as a surrogate marker for cardiovascular disease in intervention studies. Curr Med Res Opin 2006; 22:21812190.
  24. Byington RP, Evans GW, Espeland MA, et al. Effects of lovastatin and warfarin on early carotid atherosclerosis: sex-specific analyses. Asymptomatic Carotid Artery Progression Study (ACAPS) Research Group. Circulation 1999; 100:e14e17.
  25. Byington RP, Furberg CD, Crouse JR, Espeland MA, Bond MG. Pravastatin, Lipids, and Atherosclerosis in the Carotid Arteries (PLAC-II). Am J Cardiol 1995; 76:54C59C.
  26. Crouse JR, Raichlen JS, Riley WA, et al METEOR Study Group. . Effect of rosuvastatin on progression of carotid intima-media thickness in low-risk individuals with subclinical atherosclerosis: the METEOR trial. JAMA 2007; 297:13441353.
  27. Taylor AJ, Sullenberger LE, Lee HJ, Lee JK, Grace KA. Arterial Biology for the Investigation of the Treatment Effects of Reducing Cholesterol (ARBITER) 2: a double-blind, placebo-controlled study of extended-release niacin on atherosclerosis progression in secondary prevention patients treated with statins. Circulation 2004; 110:35123517.
  28. Smilde TJ, van Wissen S, Wollersheim H, Trip MD, Kastelein JJ, Stalenhoef AF. Effect of aggressive versus conventional lipid lowering on atherosclerosis progression in familial hypercholesterolaemia (ASAP): a prospective, randomised, double-blind trial. Lancet 2001; 357:577581.
  29. van Wissen S, Smilde TJ, Trip MD, Stalenhoef AFH, Kastelein JJP. Long-term safety and efficacy of high-dose atorvastatin treatment in patients with familial hypercholesterolemia. Am J Cardiol 2005; 95:264266.
  30. Meuwese MC, Franssen R, Stroes ES, Kastelein JJ. And then there were acyl coenzyme A:cholesterol acyl transferase inhibitors. Curr Opin Lipidol 2006; 17:426430.
  31. Kastelein JJ, van Leuven SI, Burgess L, et al RADIANCE 1 Investigators. . Effect of torcetrapib on carotid atherosclerosis in familial hypercholesterolemia. N Engl J Med 2007; 356:16201630.
  32. Nissen SE, Tuzcu EM, Brewer HB, et al ACAT Intravascular Atherosclerosis Treatment Evaluation (ACTIVATE) Investigators. Effect of ACAT inhibition on the progression of coronary atherosclerosis. N Engl J Med 2006; 354:12531263.
  33. Davidson MH. Clinical significance of statin pleiotropic effects: hypotheses versus evidence. Circulation 2005; 111:22802281.
  34. Nolting PR, de Groot E, Zwinderman AH, Buirma RJ, Trip MD, Kastelein JJ. Regression of carotid and femoral artery intima-media thickness in familial hypercholesterolemia. Arch Intern Med 2003; 163:18371841.
  35. Crouse JR, Grobbee DE, O’Leary DH, et al Measuring Effects on intima media Thickness: an Evaluation Of Rosuvastatin Study Group. . Measuring effects on intima media thickness: an evaluation of rosuvastatin in subclinical atherosclerosis—the rationale and methodology of the METEOR study. Cardiovasc Drugs Ther 2004; 18:231238.
  36. Toth PP, Davidson MH. Cholesterol absorption blockade with ezetimibe. Curr Drug Targets Cardiovasc Haematol Disord 2005; 5:455462.
  37. Nissen SE, Nicholls SJ, Sipahi I, et al ASTEROID Investigators. . Effect of very high-intensity statin therapy on regression of coronary atherosclerosis: the ASTEROID trial. JAMA 2006; 295:15561565.
  38. Kjekshus J, Apetrei E, Barrios V, et al CORONA Group. . Rosuvastatin in older patients with systolic heart failure. N Engl J Med 2007; 357:22482261.
  39. Cannon CP, Braunwald E, McCabe CH, et al Pravastatin or Atorvastatin Evaluation and Infection Therapy-Thrombolysis in Myocardial Infarction 22 Investigators. . Intensive versus moderate lipid lowering with statins after acute coronary syndromes. N Engl J Med 2004; 350:14951504.
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Cleveland Clinic Journal of Medicine - 75(7)
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Cleveland Clinic Journal of Medicine - 75(7)
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479-482, 486-488, 490-491
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479-482, 486-488, 490-491
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Is ezetimibe/simvastatin no better than simvastatin alone? Lessons learned and clinical implications
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